Class I methanol masers and evolutionary stage of starformation Max Voronkov Software Scientist – ASKAP In collaboration with: Caswell J.L., Ellingsen S.P., Britton.
Download ReportTranscript Class I methanol masers and evolutionary stage of starformation Max Voronkov Software Scientist – ASKAP In collaboration with: Caswell J.L., Ellingsen S.P., Britton.
Class I methanol masers and evolutionary stage of star formation
Max Voronkov Software Scientist – ASKAP In collaboration with: Caswell J.L., Ellingsen S.P., Britton T.R., Green J.A., Sobolev A.M.
10 December 2009
Introduction: two classes of methanol masers
• Class I methanol (CH 3 OH) masers • Collisional excitation (e.g. by shocks) • Regions of star formation (possibly low-mass ones as well) • Usually offset from protostars (up to a parsec) • Many maser spots scattered over tens of arcsec • Widespread masers: 36, 44, 84, 95 GHz • Rare/weak: 9.9, series at 25, 104.3 GHz • Class II methanol (CH 3 OH) masers • Regions of high mass star formation only • Excited by infrared, located at the nearest vicinity of protostars • Usually just one maser spot at the arcsec scale • Widespread masers: 6.7, 12 GHz • Rare/weak: 19.9, 23, 85/86, 37/38, 107, 108 GHz
Class I methanol masers in outflows
Evolutionary stages of star-formation
Image credit: Cormac Purcell • Different maser species may be good tracers of evolution!
• OH masers trace late stage (e.g Forster & Caswell 1989) • Methanol masers at 6.7 GHz trace earlier stages (little overlap with HII regions) • Class I methanol masers ?
Evolution of HMSF as traced by masers
Diagram suggested by Ellingsen et al. (2007) GLIMPSE colours for 6.7 GHz masers sources with and without class I maser (Ellingsen 2006) • Infrared data: sources with class I masers are more red (more embedded and therefore younger) • Class I masers are associated with outflows: trace earlier stages
Search for 9.9 GHz methanol masers
• This is one of the rare class I masers • Only two sources were known prior to this work • Two new detections out of 48 targets observed • Detection limits as low as 0.1 Jy • Needs higher temperatures and densities to form • ATCA observations (pre-CABB) • 6A and 6C arrays • Continuum at 8.6 GHz as a by-product • Spectral resolution 0.12 km/s • Obtained absolute positions for masers
Sources detected at 9.9 GHz
Grayscale: 4.5 µm (above) and NH 3 (below) (Ho et al. 1986; Garay et al. 1998) Crosses: 9.9 GHz masers Circles: 6.7 GHz masers (Phillips et al. 1998; Caswell, unpublished observations) Contours: 8.6 GHz continuum (from Phillips et al. 1998 for G331.13) Ellipse: Extended Green Object (EGO)
Implications for the sequence
Image credit: Cormac Purcell Image credit: Simon Ellingsen • More than one phenomenon may be responsible for the class I masers • Stage with class I masers is likely to outlast 6.7 GHz (class II) masers • Whether class I masers can precede class II masers is unclear • A notable overlap with OH masers which are not associated with the 6.7 GHz methanol masers is expected
Search for methanol masers towards OH
• The majority of class I methanol masers were found towards known class II masers at 6.7 GHz • Biased towards a particular evolutionary stage • Need blind surveys!
• Blind surveys are impeded by the lack of a widespread low frequency class I maser (lowest sensible is 36 GHz!) • Search for class I methanol masers in old OH-selected SFR • Search for 44 GHz class I methanol masers towards OH masers not detected at 6.7 GHz in the Parkes Methanol Multibeam survey • Unfortunately delays of CABB zoom mode implementation slowed the project down
Search for methanol masers towards OH
• The majority of class I methanol masers were found towards known class II masers at 6.7 GHz • Biased towards a particular evolutionary stage • Need blind surveys!
• Blind surveys are impeded by the lack of a widespread low frequency class I maser (lowest sensible is 36 GHz!) • Search for class I methanol masers in old OH-selected SFR • Search for 44 GHz class I methanol masers towards OH masers not detected at 6.7 GHz in the Parkes Methanol Multibeam survey • Unfortunately delays of CABB zoom mode implementation slowed the project down
Observations without zooms
• Coarse spectral resolution of 1 MHz = 6.8 km/s at 44 GHz • Not sensitive to weak masers (weaker than tens of Jy) • Can’t measure flux density and radial velocity accurately • Observed 19 OH masers which didn’t show up in MMB • Detected 10 methanol masers at 44 GHz (even without zooms!) New 44 GHz maser G307.808-0.456
Summary
• Class I methanol masers may be caused by expanding HII regions • This is in addition to the outflow scenario • Applies to all class I maser transitions, not just to 9.9 GHz • The evolutionary stage with the class I maser activity is likely to • outlast the stage when the 6.7-GHz methanol masers are present • overlap in time with the stage when the OH masers are active • Search for the class I methanol masers at 44 GHz towards OH masers not associated with the 6.7 GHz masers was very successful • The detection rate exceeds 50% even without zoom modes!
Australia Telescope National Facility
Max Voronkov Software Scientist (ASKAP) Phone: 02 9372 4427 Email: [email protected]
Web: http://www.narrabri.atnf.csiro.au/~vor010
Thank you
Contact Us
Phone: 1300 363 400 or +61 3 9545 2176 Email: [email protected] Web: www.csiro.au